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Chapter 20: Problem 8

How can an astronomer tell the difference between a planetary nebula and a planet?

Short Answer

Expert verified
An astronomer can tell the difference between a planetary nebula and a planet based on their appearances, movements, and spectral signatures. A planetary nebula emits its own light, is diffused with intricate shapes and colors, appears fixed in relation to stars and produces unique emission lines in spectroscopic observation. A planet doesn't emit light but reflects its star's light, appears as a bright point that moves relative to stars, and presents a spectral signature similar to its star.

Step by step solution

01

Understanding what a Planetary Nebula is

A planetary nebula is an astronomical object consisting of a glowing shell of gas and plasma formed by certain types of stars when they die. These are usually quite colourful and visible via a telescope as glowing objects in the sky.
02

Understanding what a Planet is

A planet, on the other hand, is a celestial body that orbits a star, is spherical in shape, and has cleared its orbit of other debris. It may be visible from Earth as a bright point in the night sky but does not emit its own light.
03

Differentiating between a Planetary Nebula and a Planet

There are multiple ways an astronomer can tell the difference between a planetary nebula and a planet. Firstly by their appearance, as a planet doesn't emit its own light, it will look like a bright point in the sky, while a planetary nebula emits light and gas, so it will have a more diffused appearance with intricate shapes and colors. Secondly, through spectral observation. Planets generally reflect the light of their star, so their spectroscopic signature is similar to that of their star. A nebula has a completely different substance and produces a distinct emission spectrum with bright emission lines. Thirdly by their movement, Planets move relative to the stars in the sky since they are orbiting a star. In contrast, a nebula is much further away and appears fixed in relation to the stars.

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Most popular questions from this chapter

Why does the evolutionary track of a high-mass star move from left to right and back again in the H-R diagram?

The central star in a newly formed planetary nebula has a luminosity of \(1000 \mathrm{~L}_{\odot}\) and a surface temperature of \(100,000 \mathrm{~K}\). What is the star's radius? Give your answer as a multiple of the Sun's radius.

Consider a high-mass star just prior to a supernova explosion, with a core of diameter \(20 \mathrm{~km}\) and density \(4 \times 10^{17}\) \(\mathrm{kg} / \mathrm{m}^{3}\). (a) Calculate the mass of the core. Give your answer in kilograms and in solar masses. (b) Calculate the force of gravity on a 1-kg object at the surface of the core. How many times larger is this than the gravitational force on such an object at the surface of the Earth, which is about 10 newtons? (c) Calculate the escape speed from the surface of the star's core. Give your answer in \(\mathrm{m} / \mathrm{s}\) and as a fraction of the speed of light. What does this tell you about how powerful a supernova explosion must be in order to blow material away from the star's core?

The Ring Nebula is a planetary nebula in the constellation Lyra. It has an angular size of \(1.4\) arcmin \(\times 1.0\) arcmin and is expanding at the rate of about \(20 \mathrm{~km} / \mathrm{s}\). Approximately how long ago did the central star shed its outer layers? Assume that the nebula is 2,700 ly from Earth.

The similar names white dwarf, red dwarf, and brown dwarf describe three very different kinds of objects. Suggest better names for these three kinds of objects, and describe how your names more accurately describe the objects' properties.
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